Coated Ferromagnetic Density Particles or Density Particles with binding agents bound thereto capable of binding biological molecules and methods of use and apparatus for means are disclosed. Coated particles coupled to specific binding agents can be used for molecular biology and proteomic applications in research and diagnostics.

The present invention provides molecular biosensors capable of signal amplification, and methods of using the molecular biosensors to detect the presence of a target molecule.

The invention relates to the use of the monoclonal antibody NILO1 for the diagnosis, treatment and/or prevention of brain tumors and lesions. Particularly, the invention relates to methods for the diagnosis of brain tumors and brain lesions in which cells marked with said antibody, or with immunologically active fragments thereof, are detected. The invention also relates to the use of said monoclonal antibody, or immunologically active fragments thereof, as a medicament for the treatment and/or prevention of brain tumors and brain lesions. In a preferred embodiment of the invention, the monoclonal antibody NILO1, or its immunologically active fragments, are humanized.

Disclosed are a composition and system for separating and detecting an alpha-fetoprotein variant, comprising a separation reagent and a detection reagent; a system for separating and detecting an alpha-fetoprotein variant and a use thereof; and a kit for separating and detecting the alpha-fetoprotein variant. By means of the composition and system for separating and detecting the alpha-fetoprotein variant, and the use thereof, primary liver cancer can be indicated early on, the sensitivity is high, and the method is rapid, simple and automated.

In a system for affinity selection by mass spectrometry, wherein a plurality of drug candidates in solution are separated based on affinity, a method is provided comprising introducing a solid-phase device having binding affinity for a selected protein into the solution, binding at least one of the plurality of drug candidates to the solid-phase device as a selected drug candidate, washing the solid-phase device and selected drug candidate to separate unbound material, sampling the selected drug candidate in capture fluid flowing through a sampling region of an open port sampling interface and directing the sampled selected drug candidate and capture fluid to an ionization source.

The present invention relates to a method of isolating exosomes. Specifically, the invention relates to a method comprising the steps of providing a sample including exosomes; identifying a cell-surface polypeptide on the exosomes; and isolating the exosomes using the cell-surface polypeptide on the exosomes. The exosomes isolated from by the methods of the invention can be studied for the purposes of biomarker identification, for the understanding of biological function and disease, and to find ways to target them with therapeutics.

Provided herein are assays that provide digital measurement methods to detect proteins and other biomolecules, e.g., at low- to mid-attomolar concentrations.

Methods for purifying and isolating extracellular vesicles (EVs) from a biofluid using a sequential processing. Tangential flow filtration is applied to the biofluid to increase the concentration of EVs in the biofluid. After this is achieved, enrichment mode is halted and the biofluid is processed in diafiltration mode to remove contaminants (up to 99.9%). After performing the tangential flow filtration step, the concentration of EVs in the biofluid is further increased by ultracentrifugal filtration. After performing the ultracentrifugal filtration step, EVs of a particular target type are separated from other EVs by immunomagnetic affinity separation. In some implementations, the methods are used to isolate and quantify tumor EVs for cancer evaluation. Additionally, these methods can be used with a scaling factor to quantify EVs from a less concentrated biofluid such as, for example, urine.

Provided are methods for detecting or isolating circulating tumor cells (CTCs) in a subject. The methods may include detecting the expression of at least one epithelial mesenchymal transition (EMT) biomarker. Further provided are kits for detecting or isolating CTCs. The kits may include antibodies to at least one EMT biomarker. Further provided are methods of predicting the responsiveness of a subject to a cancer drug, methods of targeting delivery of a cancer drug in a subject, methods of providing a cancer prognosis to a subject, and methods for following the progress of cancer in a subject.

The invention provides methods of detecting alpha-synuclein using a capture antibody and a reporter antibody. The capture antibody binds preferentially to full-length alpha-synuclein phosphorylated at residue 129 (PS129 alpha-synuclein) over unphosphorylated full-length alpha-synuclein. The 11A5 antibody is an example of a suitable capture antibody. The reporter antibody binds to an epitope within residues 40-55 of alpha-synuclein. The 23E8 antibody is an example of such an antibody. Because only a small proportion of alpha-synuclein is phosphorylated high sensitivity of detection below picomolar is advantageous.